Industry News

New Load Bearing Aerogel Structures with High Thermal Stability

Published on 2021-08-23. Edited By : SpecialChem

TAGS:  Medical     High Heat Materials   

Aerogels Improved StrengthThe UA-led engineering research team of Piljae Joo, Yimin Yao, Nicholas Teo, and Sadhan C. Jana improved the strength and durability of a material used in common applications like thermal insulation in space shuttles and hospital filters.

Unable to Support Large Loads

These materials - called aerogels - are created by combining a polymer with a solvent to form a gel, and then removing the liquid from the gel and replacing it with air. This makes them porous, low in density, but a major drawback is that they are unable to support large loads.

Think about a Styrofoam cup. It is a strong thermal insulator made from highly porous materials. When the temperature inside the cup gets too high, the materials the cup is made from loses shape and degrade. Their pores are too large to provide adequate insulation at high or low temperature. This is where aerogels become a better solution as these offer high thermal stability and small pores to cut down on the transfer of heat.

More Durable Aerogel Structures

The solution to making the aerogels stronger can be found in the most unlikely of places – the design of Legos.

We were inspired by the simplicity of Legos and used them as templates to develop load bearing aerogel structures that are stronger and more durable,” said Dr. Sadhan C. Jana, associate dean of Research in the College of Engineering and Polymer Science.

The Lego-like aerogel bricks are made from polymer struts with the interior space filled with aerogels. The aerogel inclusions provide desired thermal insulation, and the modular nature and strength are the main benefits of the bricks.

If an 8,000-pound elephant was standing on a 12”x16”x16” aerogel brick structure, it would not break,” said Dr. Jana.

Work is already in progress in Dr. Jana’s on-campus laboratory on an aerogel brick design that will be used in packing materials for cryogenic thermal insulation. Future applications could also include thermal insulation in ocean pipelines as well as hospital filters, where they will aid in removing nanoparticles and viruses from the air.

Now we can use our imagination to scale up depending on how big the application is, just by putting the Lego-bricks together.”

Source: University of Akron


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